Tag: extrovert

​Kafka, for example, couldn’t bear to be near even his adoring fiancée while he worked:

You once said that you would like to sit beside me while I write. Listen, in that case I could not write at all. For writing means revealing oneself to excess; that utmost of self-revelation and surrender, in which a human being, when involved with others, would feel he was losing himself, and from which, therefore, he will always shrink as long as he is in his right mind.… That is why one can never be alone enough when one writes, why there can never be enough silence around one when one writes, why even night is not night enough.

​Intentionally so. In his memoir, he offers this advice to kids who aspire to great creativity:

Most inventors and engineers I’ve met are like me—they’re shy and they live in their heads. They’re almost like artists. In fact, the very best of them are artists. And artists work best alone where they can control an invention’s design without a lot of other people designing it for marketing or some other committee. I don’t believe anything really revolutionary has been invented by committee. If you’re that rare engineer who’s an inventor and also an artist, I’m going to give you some advice that might be hard to take. That advice is: Work alone. You’re going to be best able to design revolutionary products and features if you’re working on your own. Not on a committee. Not on a team.

​Between 1951 and 1956, just as Osborn was promoting the power of group brainstorming, a psychologist named Solomon Asch conducted a series of now-famous experiments on the dangers of group influence. Asch gathered student volunteers into groups and had them take a vision test. He showed them a picture of three lines of varying lengths and asked questions about how the lines compared with one another: which was longer, which one matched the length of a fourth line, and so on. His questions were so simple that 95 percent of students answered every question correctly.

But when Asch planted actors in the groups, and the actors confidently volunteered the same incorrect answer, the number of students who gave all correct answers plunged to 25 percent. That is, a staggering 75 percent of the participants went along with the group’s wrong answer to at least one question.

The Asch experiments demonstrated the power of conformity at exactly the time that Osborn was trying to release us from its chains. What they didn’t tell us was why we were so prone to conform. What was going on in the minds of the kowtowers? Had their perception of the lines’ lengths been altered by peer pressure, or did they knowingly give wrong answers for fear of being the odd one out? For decades, psychologists puzzled over this question.

Today, with the help of brain-scanning technology, we may be getting closer to the answer. In 2005 an Emory University neuroscientist named Gregory Berns decided to conduct an updated version of Asch’s experiments. Berns and his team recruited thirty-two volunteers, men and women between the ages of nineteen and forty-one. The volunteers played a game in which each group member was shown two different three-dimensional objects on a computer screen and asked to decide whether the first object could be rotated to match the second. The experimenters used an fMRI scanner to take snapshots of the volunteers’ brains as they conformed to or broke with group opinion.

The results were both disturbing and illuminating. First, they corroborated Asch’s findings. When the volunteers played the game on their own, they gave the wrong answer only 13.8 percent of the time. But when they played with a group whose members gave unanimously wrong answers, they agreed with the group 41 percent of the time.

But Berns’s study also shed light on exactly why we’re such conformists. When the volunteers played alone, the brain scans showed activity in a network of brain regions including the occipital cortex and parietal cortex, which are associated with visual and spatial perception, and in the frontal cortex, which is associated with conscious decision-making. But when they went along with their group’s wrong answer, their brain activity revealed something very different.

Remember, what Asch wanted to know was whether people conformed despite knowing that the group was wrong, or whether their perceptions had been altered by the group. If the former was true, Berns and his team reasoned, then they should see more brain activity in the decision-making prefrontal cortex. That is, the brain scans would pick up the volunteers deciding consciously to abandon their own beliefs to fit in with the group. But if the brain scans showed heightened activity in regions associated with visual and spatial perception, this would suggest that the group had somehow managed to change the individual’s perceptions.

That was exactly what happened—the conformists showed less brain activity in the frontal, decision-making regions and more in the areas of the brain associated with perception. Peer pressure, in other words, is not only unpleasant, but can actually change your view of a problem.

These early findings suggest that groups are like mind-altering substances. If the group thinks the answer is A, you’re much more likely to believe that A is correct, too. It’s not that you’re saying consciously, “Hmm, I’m not sure, but they all think the answer’s A, so I’ll go with that.” Nor are you saying, “I want them to like me, so I’ll just pretend that the answer’s A.” No, you are doing something much more unexpected—and dangerous. Most of Berns’s volunteers reported having gone along with the group because “they thought that they had arrived serendipitously at the same correct answer.” They were utterly blind, in other words, to how much their peers had influenced them.

What does this have to do with social fear? Well, remember that the volunteers in the Asch and Berns studies didn’t always conform. Sometimes they picked the right answer despite their peers’ influence. And Berns and his team found something very interesting about these moments. They were linked to heightened activation in the amygdala, a small organ in the brain associated with upsetting emotions such as the fear of rejection.

Berns refers to this as “the pain of independence,” and it has serious implications. Many of our most important civic institutions, from elections to jury trials to the very idea of majority rule, depend on dissenting voices. But when the group is literally capable of changing our perceptions, and when to stand alone is to activate primitive, powerful, and unconscious feelings of rejection, then the health of these institutions seems far more vulnerable than we think.